Fires, whether naturally occurring or man-made, have substantial impacts on both the landscape and air quality. Fortunately, satellites can detect and monitor fires large and small, and provide data on a range of factors, including location, duration, size, temperature and intensity.
This GOES-16 geocolor imagery captured on May 7 shows smoke plumes from several fires burning in the southeastern United States, including the West Mims Fire, the majority of which lies in the Okefenokee National Wildlife Refuge. As of May 9, 2017, the fire was estimated at 140, 409 acres. [Note: GOES-16 data are currently experimental and under-going testing and hence should not be used operationally.]
A large portion of the Southeast (an area including Alabama, Florida, Georgia, and South Carolina) is experiencing drought conditions that, based on data from the U.S. Drought Monitor, range from mild to severe, with areas of extreme drought occurring in central Florida. The Florida Forest Service has reported that, as of May 8, 2017, there are more than 120 active fires in the state. Consequently, the need to keep an eye on new and existing fires is paramount. Fortunately, satellites like GOES-16 and Suomi NPP are in orbit.
Fires, whether naturally occurring or man-made, have substantial impacts on both the landscape and air quality. Beyond scorching vast tracts of land, fires can destroy wildlife habitat and valuable resources, and release aerosols and gases into the atmosphere. In addition, smoke from large fires can drift into populated areas, posing a threat to people with respiratory ailments.
Unlike ground-based observation tools, which can yield incomplete information about fires, satellites can detect and monitor fires large and small, and provide data on a range of factors, including location, duration, size, temperature and intensity. Further, satellites can track blazes in near real time, provide data for air quality models and help distinguish the air-quality impact of fires versus those from other sources of pollution.
How Do Satellites Detect Fires from Space?
NOAA satellites, such as the recently-launched GOES-16, can "see" fires by detecting both the light given off by their flames and the way smoke and other airborne particles absorb or scatter sunlight. In fact, 8 of the 16 spectral bands offered by GOES-16's Advanced Baseline Imager (ABI), the satellite's main instrument, can be used to detect smoke, nighttime fires, hot spots, and burn scars (see the ABI chart below).
For example, take a look at the GOES-16 geocolor imagery (above) captured on May 7, 2017. It shows smoke plumes from several fires burning in the southeastern United States, including the West Mims Fire, which began burning in the Okefenokee National Wildlife Refuge on April 6. As of May 9, 2017, the federal government's InciWeb website reported the fire was 140, 000 acres and only 12 percent contained. Moreover, full containment of the fire is not expected for months.
The Visible Infrared Imaging Radiometer Suite (VIIRS) instrument aboard the NOAA/NASA Suomi NPP satellite captured this true-color image of a huge plume of smoke rising into the atmosphere off the coast of central Chile on January 26, 2017.
GOES-16 is not the only NOAA satellite that can detect fires and smoke. The Joint Polar Satellite System 's Suomi NPP satellite, which circumnavigates the globe twice a day, can also spot blazes and plumes of smoke from its orbit 540 miles above Earth. Suomi NPP's imager, the Visible Infrared Imaging Radiometer Suite (VIIRS), offers 22 channels, and imagery from several of them can be combined to produce true-color images of the Earth used to monitor fire, smoke, and more.
For more information about GOES-16's ability to detect and monitor fire on the landscape, visit the GOES-r.gov website.